CN112376568A

CN112376568A - High slope pouring hoisting device

Info

Publication number: CN112376568A
Application number: CN202011226032.5A
Authority: CN
Inventors: 李珊珊; 郭新宇
Original assignee: Individual
Current assignee: Anhui Pingtianhu Investment Holding Group Co ltd
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2021-02-19
Anticipated expiration: 2040-11-05
Also published as: CN112376568B

Abstract

The invention discloses a high slope pouring lifting device which comprises a bearing frame, an adjusting rod, a rotating rod, a fixing shaft, an adjusting structure, a screw rod, a first bevel gear, a sliding groove, a second bevel gear, a rotating shaft, a bearing, a containing groove and a baffle. The invention has the beneficial effects that: when pouring material in the bearing frame is poured out in needs, open the baffle, rotate the axis of rotation, because the equal fixedly connected with second bevel gear in both ends of axis of rotation, so drive a pair of second bevel gear and rotate, drive a pair of first bevel gear and rotate, drive the bottom motion of a pair of screw rod to the regulation pole, the one end of a pair of screw rod all is equipped with the spout, so the both ends of axis of rotation all with spout sliding connection, so make the length of a pair of regulation pole elongated, the length of a pair of regulation pole is greater than the length of a pair of fixed rod promptly, thereby make the focus of bearing frame remove to the direction of dwang, the bearing frame slope, alright slowly pour out the pouring material in the bearing frame, avoid pouring too.

Description

High slope pouring hoisting device

Technical Field

The invention relates to a lifting device, in particular to a high slope pouring lifting device, and belongs to the technical field of high slope pouring lifting devices.

Background

In the field of geotechnical engineering or engineering geology (geological engineering) research, a slope is generally called as a general term of slope forms such as a natural slope, a river bank slope, a tableland side, a slide flow accumulation body and an artificial slope (formed by traffic roads, open-pit mining, building sites, foundation engineering and the like), common disease types of the slope comprise weathering spalling, flowing stone and mud, block and stone falling, collapse, dumping, collapse, buckling, slump, slide, landslide and dislocation, and in order to prevent accidents caused by the slope, the slope is often required to be poured, particularly a high slope, so that a high slope pouring lifting device is required.

However, the pouring material in the traditional high slope pouring lifting device is lifted to the position above the position to be poured, which is difficult to invert slowly due to overweight, and the pouring is too fast and easy to splash to cause waste, so that the manual shoveling efficiency is too low.

Disclosure of Invention

The invention aims to solve the problems and provide a high slope pouring lifting device, wherein a bearing frame can be slowly inclined by rotating a rotating shaft, pouring materials in the bearing frame can be slowly poured out, and splashing and waste caused by excessive pouring are avoided.

The invention realizes the aim through the following technical scheme, and discloses a high slope pouring lifting device which comprises a bearing frame and a baffle plate, wherein the baffle plate is arranged at one end of the bearing frame and is rotationally connected with the bearing frame, adjusting rods and rotating rods are arranged at two sides of the bearing frame, a pair of the adjusting rods and a pair of the rotating rods are respectively symmetrically distributed, one ends of the pair of the adjusting rods and the pair of the rotating rods, which are far away from the bearing frame, are respectively rotationally connected with two ends of a fixed shaft, one ends of the pair of the adjusting rods, which are close to the bearing frame, are respectively connected with an adjusting structure, the adjusting structure comprises a screw rod, a first bevel gear, a sliding groove, a second bevel gear, a rotating shaft, a bearing and a containing groove, one end of the adjusting rod is provided with the containing groove, the bottom ends of the pair of the adjusting rods, which are close to the, the pair of first bevel gears are respectively and rotatably connected with one end of the adjusting rod, the screw rods are respectively and threadedly connected inside the first bevel gears, the pair of screw rods are respectively and rotatably connected with the accommodating grooves, the bottom ends of the pair of screw rods are respectively and fixedly connected with the bottom ends of the adjusting rods, the sliding grooves are formed in one ends of the pair of screw rods, the rotating shaft is rotatably connected between the pair of adjusting rods, the two ends of the rotating shaft are respectively and slidably connected with the sliding grooves, the two ends of the rotating shaft are respectively and fixedly connected with the second bevel gears, and the pair of second bevel gears are respectively meshed with the pair of first bevel gears.

Preferably, in order to prevent the bearing from falling off, the adjusting structure further comprises a stop block, one end of the pair of adjusting rods close to the bearing is fixedly connected with the stop block, and the pair of stop blocks is fixedly connected with an outer ring of the bearing.

Preferably, in order to facilitate the rotation of the rotating shaft, a handle is fixedly connected to one end of the rotating shaft, and the handle is rotatably connected to the adjusting rod.

Preferably, in order to prevent the baffle takes place to rotate when feeding, the bearing frame is close to in the one end of baffle is connected with fixed knot and constructs, fixed knot constructs including fixed block and stopper, the both ends of baffle all rotate and are connected with the stopper, the both sides of loading board are close to in the equal fixedly connected with of one end of stopper the fixed block.

Preferably, for the convenience of limiting of the limiting block, the limiting block is in a pair of L shapes, and the limiting block and the fixing block are buckled with each other respectively.

Preferably, in order to enable the carrying frame to be in a horizontal state during lifting, the pair of adjusting rods are cylindrical, and the lengths of the adjusting rods and the rotating rods are equal.

Preferably, for the purpose of speed reduction, the diameter of the first bevel gear is larger than the diameter of the second bevel gear, and the diameter of the second bevel gear is smaller than the diameter of the chute.

The invention has the beneficial effects that: when pouring materials in the bearing frame need to be poured out, the baffle is opened, the rotating shaft is rotated, two ends of the rotating shaft are fixedly connected with second bevel gears, so that the pair of second bevel gears are driven to rotate, one ends of the pair of second bevel gears are meshed with first bevel gears, the bottom ends of the pair of first bevel gears are respectively and rotatably connected with the inner ring of the bearing, so that the pair of first bevel gears are driven to rotate, the screw rods are in threaded connection with the insides of the pair of first bevel gears, so that the pair of screw rods are driven to move towards the bottom of the adjusting rod, one ends of the pair of screw rods are respectively provided with sliding grooves, so that two ends of the rotating shaft are in sliding connection with the sliding grooves, so that the length of the pair of adjusting rods is prolonged, namely the length of the pair of adjusting rods is larger than that the pair of fixing rods, the gravity center of, avoid pouring out too much and cause splash and waste once.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the adjustment mechanism shown in FIG. 1;

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is an enlarged schematic view of a portion B shown in fig. 2.

In the figure: 1. the adjustable type bevel gear adjusting mechanism comprises a bearing frame, 2, an adjusting rod, 3, a rotating rod, 4, a fixing shaft, 5, an adjusting structure, 51, a screw rod, 52, a first bevel gear, 53, a sliding groove, 54, a second bevel gear, 55, a rotating shaft, 56, a bearing, 57, a stop block, 58, an accommodating groove, 6, a handle, 7, a fixing structure, 71, a fixing block, 72, a limiting block, 8 and a baffle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, a high slope pouring lifting device includes a bearing frame 1 and a baffle 8 rotatably connected to one end of the bearing frame 1, wherein both sides of the bearing frame 1 are provided with an adjusting rod 2 and a rotating rod 3, the adjusting rod 2 and the rotating rod 3 are symmetrically distributed, ends of the adjusting rod 2 and the rotating rod 3, which are away from the bearing frame 1, are rotatably connected to both ends of a fixed shaft 4, respectively, one end of the adjusting rod 2, which is close to the bearing frame 1, is connected to an adjusting structure 5, the adjusting structure 5 includes a screw 51, a first bevel gear 52, a sliding groove 53, a second bevel gear 54, a rotating shaft 55, a bearing 56 and a storage groove 58, one end of the adjusting rod 2 is provided with the storage groove 58, and the bottom end of the adjusting rod 2, which is close to the storage groove 58, is fixedly connected to the bearing 56, the top ends of the inner rings of the pair of bearings 56 are fixedly connected with the first bevel gears 52, the pair of first bevel gears 52 are respectively rotatably connected with one end of the adjusting rod 2, the screw rods 51 are respectively in threaded connection inside the pair of first bevel gears 52, the pair of screw rods 51 are respectively in sleeve connection with the accommodating grooves 58, the bottom ends of the pair of screw rods 51 are respectively fixedly connected with the bottom end of the adjusting rod 2, the sliding grooves 53 are respectively arranged at one ends of the pair of screw rods 51, the rotating shaft 55 is rotatably connected between the pair of adjusting rods 2, two ends of the rotating shaft 55 are respectively in sliding connection with the sliding grooves 53, the second bevel gears 54 are respectively fixedly connected with two ends of the rotating shaft 55, and the pair of second bevel gears 54 are respectively meshed with the pair of first bevel gears 52.

As a technical optimization scheme of the present invention, the adjusting structure 5 further includes a stopper 57, one end of each of the pair of adjusting rods 2 close to the bearing 56 is fixedly connected to the stopper 57, and the pair of stoppers 57 are fixedly connected to an outer ring of the bearing 56.

As a technical optimization scheme of the present invention, one end of the rotating shaft 55 is fixedly connected with a handle 6, and the handle 6 is rotatably connected with the adjusting rod 2.

As a technical optimization scheme of the invention, one end of the bearing frame 1 close to the baffle plate 8 is connected with a fixing structure 7, the fixing structure 7 comprises a fixing block 71 and a limiting block 72, two ends of the baffle plate 8 are rotatably connected with the limiting block 72, and one ends of two sides of the bearing plate close to the limiting block 72 are fixedly connected with the fixing block 71.

As a technical optimization scheme of the present invention, a pair of the limit blocks 72 are both L-shaped, and the pair of the limit blocks 72 and the pair of the fixing blocks 71 are respectively fastened to each other.

As a technical optimization scheme of the present invention, a pair of the adjusting rods 2 are both cylindrical, and the lengths of the adjusting rods 2 and the rotating rods 3 are equal.

As a technical optimization scheme of the present invention, the diameter of the first bevel gear 52 is larger than that of the second bevel gear 54, and the diameter of the second bevel gear 54 is smaller than that of the chute 53.

When the pouring device is used, pouring materials are filled into the bearing frame 1, the bearing frame 1 is lifted to the position above a place needing pouring, the two ends of the baffle plate 8 are rotatably connected with the limiting blocks 72, the end, close to the limiting blocks 72, of the two sides of the bearing plate is fixedly connected with the fixed blocks 71, and the pair of limiting blocks 72 and the pair of fixed blocks 71 are respectively buckled with each other, so that the limiting blocks 72 are knocked to release the limiting of the baffle plate 8, the pouring materials can be poured out after the baffle plate 8 is opened, the handle 6 is fixedly connected with one end of the rotating shaft 55, the rotating shaft 55 is driven to rotate by rotating the handle 6, the pair of second bevel gears 54 are driven to rotate because the two ends of the rotating shaft 55 are fixedly connected with the second bevel gears 54, the first bevel gears 52 are meshed with one ends of the pair of the second bevel gears 54, therefore, the pair of first bevel gears 52 are driven to rotate, one ends of the pair of adjusting rods 2 close to the bearings 56 are fixedly connected with the stoppers 57, the pair of stoppers 57 are fixedly connected with the outer rings of the bearings 56, the bearings 56 are prevented from falling off, the screw rods 51 are in threaded connection with the insides of the pair of first bevel gears 52, the pair of screw rods 51 are driven to move towards the bottoms of the adjusting rods 2, the sliding grooves 53 are formed at one ends of the pair of screw rods 51, both ends of the rotating shaft 55 are in sliding connection with the sliding grooves 53, so that the lengths of the pair of adjusting rods 2 are increased, namely the lengths of the pair of adjusting rods 2 are greater than the lengths of the pair of fixing rods, the gravity center of the bearing frame 1 moves towards the rotating rod 3, the bearing frame 1 inclines, the casting material in the bearing frame 1 can be poured out slowly, the diameter of the first bevel gears 52 is, reach the speed reduction purpose, avoid pouring out too much and cause splash and extravagant, the back antiport handle 6 of having fallen, alright make bearing frame 1 resume the horizontality, close baffle 8, rotate stopper 72 alright restriction baffle 8 open, alright reuse.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a high slope pouring hoisting device, includes bearing frame (1) and locates baffle (8) that bearing frame (1) one end rotated the connection, its characterized in that: the two sides of the bearing frame (1) are respectively provided with an adjusting rod (2) and a rotating rod (3), the adjusting rods (2) and the rotating rods (3) are symmetrically distributed, one end of each adjusting rod (2) and one end of each rotating rod (3) departing from the bearing frame (1) are respectively connected to two ends of a fixed shaft (4) in a rotating mode, one end of each adjusting rod (2) close to the bearing frame (1) is connected with an adjusting structure (5), each adjusting structure (5) comprises a screw rod (51), a first bevel gear (52), a sliding groove (53), a second bevel gear (54), a rotating shaft (55), a bearing (56) and a containing groove (58), one end of each adjusting rod (2) is provided with the containing groove (58), and the bottom end of each adjusting rod (2) close to the containing groove (58) is fixedly connected with the bearing (56), the top ends of the inner rings of the pair of bearings (56) are fixedly connected with the first bevel gears (52), the pair of first bevel gears (52) are respectively and rotatably connected with one end of the adjusting rod (2), the screw rods (51) are respectively and threadedly connected inside the pair of first bevel gears (52), the pair of screw rods (51) are respectively and rotatably sleeved with the accommodating grooves (58), the bottom ends of the pair of screw rods (51) are respectively and fixedly connected with the bottom ends of the adjusting rods (2), one ends of the pair of screw rods (51) are respectively provided with the sliding grooves (53), and the rotating shaft (55) is rotatably connected between the pair of adjusting rods (2), both ends of the rotating shaft (55) are connected with the sliding groove (53) in a sliding way, the two ends of the rotating shaft (55) are fixedly connected with the second bevel gears (54), and the pair of second bevel gears (54) are respectively meshed with the pair of first bevel gears (52).

2. A high slope pouring elevating device according to claim 1, characterized in that: the adjusting structure (5) further comprises a stop block (57), one end, close to the bearing (56), of the adjusting rod (2) is fixedly connected with the stop block (57), and the stop block (57) is fixedly connected with an outer ring of the bearing (56).

3. A high slope pouring elevating device according to claim 1, characterized in that: one end of the rotating shaft (55) is fixedly connected with a handle (6), and the handle (6) is rotatably connected with the adjusting rod (2).

4. A high slope pouring elevating device according to claim 1, characterized in that: bearing frame (1) be close to in the one end of baffle (8) is connected with fixed knot constructs (7), fixed knot constructs (7) including fixed block (71) and stopper (72), the both ends of baffle (8) all rotate and are connected with stopper (72), the both sides of loading board are close to in the equal fixedly connected with of one end of stopper (72) fixed block (71).

5. A high slope pouring lifting device according to claim 4, characterized in that: the pair of limiting blocks (72) are L-shaped, and the pair of limiting blocks (72) and the pair of fixing blocks (71) are buckled with each other respectively.

6. A high slope pouring elevating device according to claim 1, characterized in that: a pair of adjust pole (2) all are cylindrically, just adjust pole (2) with the length of dwang (3) equals.

7. A high slope pouring elevating device according to claim 1, characterized in that: the diameter of the first bevel gear (52) is larger than that of the second bevel gear (54), and the diameter of the second bevel gear (54) is smaller than that of the chute (53).